Diketones aliphatic

Many of the compounds that undergo ready base-catalysed keto i enol prototropic changes, e.g. / -keto esters, l,3-(/ -) diketones, aliphatic nitro compounds, etc., form relatively stable carbanions, e.g. (25), that can often be isolated. Thus it is possible to obtain carbanions from the keto forms of the /J-keto ester (23a) and nitromethane (24a) and, under suitable conditions, to protonate them so as to obtain the pure enol forms (23b) and (24i>), respectively. It thus seems extremely probable that their interconversion follows the intermolecular pathway (a). The more acidic the substrate, i.e. the more stable the carbanion to which it gives rise, the greater the chance that prototropic interconversion will involve the carbanion as an intermediate. 

The 1,2-diketone 1 can be converted into the salt of an a-hydroxy carboxylic acid upon reaction with alkali hydroxide, which upon acidic workup affords a-hydroxy carboxylic acid 2. Semi-aromatic diketones, aliphatic, heterocyclic and aromatic diketonesundergo this rearrangement. The substituents should not bear hydrogens a to the carbonyl group, to avoid competing reactions such as aldol condensation. 

Polyfluorinated a-diketones react with 1,2-diainino compounds, such as ortlio-phenylenediamine, to give 2,3-substituted quinoxalmes [103] Furthermore, the carboxyl function of trifluoropyruvates offers an additional electrophilic center. Cyclic products are obtained with binucleophiles [13, 104] With aliphatic or aromatic 1,2-diamines, six-memhered heterocycles are formed Anilines and phenols undergo C-alkylation with trifluoropyruvates in the ortho position followed by ring closure to form y-lactams and y-lactones [11, 13, 52, 53, 54] (equation 23). 

One of the most actively investigated aspects of enamine chemistry has been the acylation process (i). Initial intensive studies by Hiinig (373-375) showed the ease of preparing a variety of 9-diketones and particularly the synthetic potential of acylated cyclic ketones as intermediates in the preparation of aliphatic keto acids, keto dicarboxylic acids and diketo dicarboxylic acids (376-378). 

Substrates can be 1,2-diketones with aryl groups as well as some aliphatic substituents, cyclic and heterocyclic diketones. However the benzilic acid rearrangement is of limited preparative importance. 

The y-keto nitriles shown in Table I were prepared by the cyanide-catalyzed procedure described here. This procedure is generally applicable to the synthesis of y-diketones, y-keto esters, and other y-keto nitriles. However, the addition of 2-furancarboxaldehyde is more difficult, and a somewhat modified procedure should be employed. Although the cyanide-catalyzed reaction is generally limited to aromatic and heterocyclic aldehydes, the addition of aliphatic aldehydes to various Michael acceptors may be accomplished in the presence of thioazolium ions, which are also effective catalysts for the additions. 

Ligand-free catalysts have been prepared from the following types of nickel(II) compounds nickel salts of long-chain aliphatic or aromatic carboxylic acids (10, 11) or of sulfonic acids (11), nickel enolates of /3-diketones (11) [e.g., nickel acetylacetonate (4, 12)] or their imino derivatives (11, 13), nickel phenolates (11), dithiocarbamates (14), and mer-captides (15). 

A survey of Wacker-type etherification reactions reveals many reports on the formation of five- and six-membered oxacycles using various internal oxygen nucleophiles. For example, phenols401,402 and aliphatic alcohols401,403-406 have been shown to be competent nucleophiles in Pd-catalyzed 6- TZ /fl-cyclization reactions that afford chromenes (Equation (109)) and dihydropyranones (Equation (110)). Also effective is the carbonyl oxygen or enol of a 1,3-diketone (Equation (111)).407 In this case, the initially formed exo-alkene is isomerized to a furan product. A similar 5-m -cyclization has been reported using an Ru(n) catalyst derived in situ from the oxidative addition of Ru3(CO)i2... 

The latter method can also be applied to aliphatic or ,/Tunsaturated ketones, to diketones and to aromatic or acetylenic aldehydes. Furthermore, it tolerates a variety of functional groups present in the substrate, as demonstrated by the efficient formation of allenes 174 and 175, which bear an additional nitro and ester group, respectively (Scheme 2.55) [89]. 

The preparative importance of the acyloins depends on the fact that they are intermediate products, from which many 1 2-diketones can be obtained. The simplest aromatic member of this group is benzil (anisil and furil are analogous) like its aliphatic prototype diacetyl CH3.CO.CO.CH3 (and like anhydrous glyoxal) it is yellow in colour. Diacetyl is obtained from methyl-ethyl ketone via the monoxime of the former compound (von Pechmann). It is remarkable that diacetyl condenses to p-xyloquinone. (Formulate). 

Irradiation of mixtures of 1,3-diketones and aliphatic or aromatic primary or secondary amines absorbed over montmorillonite clay or silica in a microwave oven affords enamino ketones, e.g. equation 99311. 

Electrophilic nitrations of aliphatic nitriles, carboxylic acids,carboxylic esters, ° and /3-diketones have been reported. The nitration of 2-alkyl-substituted indane-l,3-diones with nitric acid, followed by alkaline hydrolysis, is a standard laboratory route to primary nitroalkanes. ... 

Following the cinchonine-catalyzed results, Schaus et al. [46] reported the use of cyclic 1,3-dicarbonyl donors to access adjacent quaternary-tertiary stereogenic centers. Under similar reaction conditions cyclic (l-ketoester and 1,3-diketones afforded the corresponding Mannich adducts in excellent yields and stereoselectivities (Scheme 7). The methodology was also applicable to aryl propenyl imines (32) - a class of novel aliphatic imines. 

The preferred route for reducing the molecular weight of PVA involves chain scission at the 1,3-diketone site (see Fig. 6). As the diketone element is chemically not very stable, a spontaneous degradation of oxidised PVA was also discussed [80]. Nevertheless, the preferred degradation pathway is most likely the biochemical process because enzymes were identified that showed high activity with diketone substrates [81], especially with oxidised PVA. The p-diketone hydrolase (BDH EC 3.7.1.7) hydrolyses aliphatic p-diketones to form methyl ketones and carboxylic acids in equimolar amounts [82]. The enzymatic cleavage of C-C bonds in p-diketones is not well studied [83]. BDH enzymes could be isolated from different PVA-degrading strains, purified, characterised and cloned [84]. 

The Acylation of Methyl Ketones with Aliphatic Esters to -Diketones... 

The absorption spectrum of an aliphatic a-diketone consists of a weak <- n band (e 20-50) in the visible and a stronger band in the ultra-... 

The photochemistry of a number of long chain aliphatic a-diketones has been reported.46 68 Included in the study were 2,3-pentanedione, 3,4-hexane-dione, 4,5-octanedione, 5,6-decanedione, 2,7-dimethyl-4,5-octanedione, and 1,2-cyclodecanedione. Without exception, irradiation of these compounds in cyclohexane or benzene yielded cyclobutanols, presumably by an internal abstraction-cyclization mechanism. The reaction is quite selective, producing... 

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